疲劳人体肌肉中短潜伏期和长潜伏期反射的行为
Behaviour of short and long latency reflexes in fatigued human muscles.
作者信息
Duchateau J, Hainaut K
机构信息
Laboratory of Biology, Université Libre de Bruxelles, Belgium.
出版信息
J Physiol. 1993 Nov;471:787-99. doi: 10.1113/jphysiol.1993.sp019928.
Abstract
- The human abductor pollicis brevis (APB) and first dorsal interosseus (FDI) were fatigued by sustained maximal voluntary contractions and, in the case of the APB also by electrically induced (30 Hz) contractions, until the loss of force reached 50% of control. The short latency or Hoffmann reflex (H reflex) and the long latency reflex (LLR) were evoked during weak voluntary contractions by the electrical stimulation of the median nerve at the wrist in control, during and after the fatigue experiments. 2. As compared to control, the normalized H reflex amplitude in the two fatigue modalities was found to have decreased by 30% without any significant change in the LLR. This finding and the observation that the LLR was enhanced by 46% in simultaneous recordings, in which the APB remained at rest during FDI fatigue, could be explained by a stronger descending fatigue-induced central drive which spreads to neighbouring non-fatigued muscles. 3. A comparison of the H reflex and the LLR behaviour during fatigue indicates that motoneurone activation threshold is not affected but that changes in peripheral drive are present, which possibly induce presynaptic inhibition of Ia afferents and/or inhibition of interneurones in the oligosynaptic pathways. Our observation of a rather slow time course for the H reflex decrease during fatigue supports the point of view that these inhibitions are activated by metabolic and/or chemical changes in the fatigued muscle. 4. It is concluded from the results of this study that muscle fatigue induces an enhanced descending supraspinal drive which compensates for a loss of excitation from the peripheral afferents on motoneurones.
摘要
- 通过持续最大自主收缩使人类拇短展肌(APB)和第一背侧骨间肌(FDI)疲劳,对于APB,还通过电诱发(30Hz)收缩使其疲劳,直至力量损失达到对照的50%。在对照、疲劳实验期间及之后,通过在腕部电刺激正中神经,在弱自主收缩期间诱发短潜伏期或霍夫曼反射(H反射)和长潜伏期反射(LLR)。2. 与对照相比,发现两种疲劳模式下归一化的H反射幅度降低了30%,而LLR没有任何显著变化。这一发现以及在同时记录中LLR增强46%的观察结果(其中在FDI疲劳期间APB保持静止),可以用更强的下行疲劳诱导的中枢驱动来解释,这种驱动扩散到相邻的未疲劳肌肉。3. 疲劳期间H反射和LLR行为的比较表明,运动神经元激活阈值不受影响,但存在外周驱动的变化,这可能诱导Ia传入纤维的突触前抑制和/或寡突触通路中中间神经元的抑制。我们观察到疲劳期间H反射下降的时间进程相当缓慢,这支持了这些抑制是由疲劳肌肉中的代谢和/或化学变化激活的观点。4. 从这项研究的结果得出结论,肌肉疲劳会诱导增强的下行脊髓上驱动,以补偿运动神经元外周传入兴奋的损失。
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